KR20000032521A - Apparatus for removing scraps of piercing device of mmiddle shell of rotary compressor of air conditioner - Google Patents

Abstract

PURPOSE: An apparatus for removing scraps of piercing device of middle shell of rotary compressor of air conditioner is provided to guarantee the simultaneous and precise machining of the three piercing holes by continuously discharging scraps outside. CONSTITUTION: An apparatus for removing scraps of piercing device of middle shell of rotary compressor of air conditioner includes a die(223) formed with an expansion hole(223") which is coaxial with a punched hole(223') of piercing hole(80') and has a larger diameter than the punched hole, reciprocating block(221) formed with a horizontal hole(221') connected with the expansion hole for discharging scraps backward and a vertical hole(221") connected with a rear part of the horizontal hole perpendicularly for dropping down the scraps, a hopper part(231) fixed on a base plate(205) via a fixing part(232) and covering the width of the reciprocating movement of the reciprocating block for collecting the scraps dropped down from the lower end part of the vertical hole, and a discharging part(233) for discharging the scraps collected in the hopper part outside.

Description

Scrap removing device of piercing device of middle shell of air conditioner rotary compressor

The present invention relates to a scrap removing device of the piercing device of the middle shell of the rotary compressor of the air conditioner, and more specifically, the outer case is composed of the middle shell 101, the upper shell 102 and the lower shell 103. The pump assembly 120 driven by the motor assembly 110 having the stator 111 and the rotor 112 assembled on the inner circumference thereof is press-fitted and driven through the shaft 113 from the motor assembly 110. Roll-bendered with blanks to form the middle shell 101 of the air-conditioning rotary compressor which is welded and fixed through three piercing holes 80 ', and then welded to form a shell, and then the upper shell 102 and the lower portion. A piercing apparatus for processing the piercing hole 80 'horizontally from the inside of the shell 70 which processed the engaging portion 70' of the shell 103 to the outside, so as to easily remove the horizontally pierced scrap. Scrap removing device of piercing device of middle shell of air conditioner rotary compressor It relates.

In FIG. 1, the rotary compressor 100 for an air conditioner includes an outer case formed of a middle shell 101, an upper shell 102, and a lower shell 103, and the middle shell 101 has an upper case in FIG. 1. The motor assembly 110, in which the stator 111 and the rotor 112 are assembled, is press-fitted and fixed, and a pump assembly 120 driven through the shaft 113 from the motor assembly 110 is fixed to the lower portion. The upper shell 102 seals the upper part of the middle shell 101, the terminal cover 115 is assembled with the wiring terminal 114 installed on the upper surface thereof, and the lower end of the middle shell 101 is assembled with the lower shell. The base plate 104 and the compressor pedestal 105 are attached to the bottom of the lower shell 103 and are installed via the compressor pedestal 105. In addition, the middle shell 101 is provided with a burring portion 80 ″ and a connecting pipe 90 ″ to connect the accumulator 130 to the suction port of the pump assembly 120. In this case, the inlet of the accumulator 130 is closed by the suction plug 131. In addition, the supply pipe connecting pipe 132 of the refrigerant is discharged to the discharge port of the pump assembly 120 through the middle shell 101 similarly connected to the discharge port of the pump assembly 120, the plug 133 when not in use The log exit is closed.

In the air conditioner rotary compressor 100 having the above-described structure, the middle shell 101 is particularly used to install the motor assembly 110 and the pump assembly 120 on the inner circumference thereof. For the clearance, the roundness should be precisely formed to less than 30μ.

2 is a schematic process diagram showing a configuration of a method for manufacturing a middle shell of an air conditioner rotary compressor according to the present invention. In FIG. 2, the manufacturing method of the middle shell of the air-conditioning rotary compressor includes a blanking step S1, a roll bending step S2, a shrinking step S3, a shell welding step S4, and a brushing step S5. It includes a secondary expanding step (S6), a side cutting step (S7), a piercing step (S8), a burring step (S9), a bracket welding step (S10), a brazing step (S11), and a secondary expanding step (S12). The blank 10 is cut | disconnected and manufactured using the blanking die 11 and the blanking punch 12 to the predetermined developed size from the roll 10 ', In the said roll bending step S2, blank 10 is passed between the plurality of lower rolls 21 and the upper rolls 22 to form a substantially cylindrical shape, the roll bent shell 20, between the both ends so as to be welded in the shrinking step (S3) The gap 20 'is shrunk into a small amount of the gap 30' by the lower shrinking mold 31 and the upper shrinking mold 32, which are plastic deformation processing tools, The source is improved.

Thereafter, in the shell welding step S4, the shell 30 is placed on the welding jig 41, and the welding portion 40 'is welded by the welding torch 42. The welded shell 40 is removed from the slag of the weld 40 'while moving to the brush 52 which is disposed on the shell pedestal 51 and rotates in the brushing step S5. The brushed shell 50 is disposed at the outer circumference of the primary expansion jaw 61 in the primary expansion step S6 and is moved to the primary jaw guide 63 by the downward movement of the primary expansion cone 62. The primary expansion jaw 61, which is guided and radially expanded, causes the brushed shell 50 to expand into a cylinder of a predetermined diameter.

The primary expansion shell 60 is gripped by the shell gripping cone 72 and the shell gripping jaw 71 in the side cutting step S7, and then both ends thereof are cut to a predetermined size by the cutter 73. It is machined and the joining portion 70 'of the upper shell 102 and the lower shell 103 is machined.

Thus, the piercing step S8 of forming the piercing hole 80 'from the shell 70 in which the engaging portion is processed is performed by the piercing cone 81, the piercing punch 82, and the piercing jaw 83. A burring step S9 is performed to form a burring portion 80 "from the pierced shell 80 in this way, and in that burring step S9, the pierced shell by the shell positioning member 88 After arranging 80, the burring cam 87 may be reciprocated by the operation cam 86 to form the burring portion 80 ″.

After that, in the bracket welding step S10, the burred shell 90 is supported by the shell support member 91, and the fixed bracket 90 'is fixed to the shell 90 by the spot welding electrode 92. Welding the joints 90 " to the burring portion 80 " of the shell 90 with a brazing torch 93, and then precisely machining the final inner cylinder diameter of the shell. A second expanding step S12 is performed for this purpose. In the second expanding step S12, similarly to the first expanding step S6, after the shell 90 is inserted and disposed on the outer circumference of the secondary expansion jaw 96, the secondary expansion cone 97 is used. The secondary expansion jaw 96 is radially expanded by the secondary jaw guide 98 and is processed into a secondary expansion shell 95 having a precise inner diameter.

As such, after welding and brazing, the inner diameter is secondarily enlarged to remove the thermal effect caused by the welding, and the brazing can be precisely processed to a designed dimension having a high precision of roundness of 30 mu or less.

Forming three piercing holes 80 'in the shell 70 in the piercing step in the above-described process is cumbersome and not only decreases productivity, but also maintains the roundness of the inner circumferential surface of the shell while the three piercing holes 80 are formed. There is a problem that it is difficult to precisely machine the pitch and height between the ')'.

In addition, in order to maintain the roundness of the inner circumferential surface of the shell, it must be pierced from the inside of the shell 70 to the outside. Furthermore, in order to process the three piercing holes 80 'at the same time, a cam action should be used, but discharged to the outside. There is a problem that it is not easy to discharge the piercing scrap without making it as a jam.

Accordingly, the present invention is to solve this problem, three piercing holes for the pump fixed welding of the middle shell of the circular cross section of the air conditioner rotary compressor can be simultaneously processed from the inside of the shell to the outside, the roundness of the inner peripheral surface It is an object of the present invention to provide a scrap removal device of a piercing device of a middle shell of an air-conditioning rotary compressor which does not jam the piercing scrap so that the pitch and the relative height can be accurately processed with the maintenance of.

1 is a cross-sectional view showing the configuration of an air conditioner compressor;

Figure 2 is a schematic process diagram for explaining the configuration of the manufacturing method of the middle shell of the air conditioner rotary compressor according to the present invention,

3 is a top plan view showing the configuration of a three-point piercing device of the middle shell of the air-conditioner rotary compressor according to the present invention;

4 is a cross-sectional view taken along line 4-4 of FIG. 3 showing a scrap removal apparatus according to an embodiment of the present invention;

5 is an enlarged cross-sectional view of the die.

<Explanation of symbols on the main parts of the drawing>

70: shell (machined at joining part) 200: three-point piercing device

201: connecting rod 202: fixing nut

203: protruding plate 205: base plate

210: punch portion 211: cam slider

211 ', 215': Slide inclined cam surface 212: Lift guide block

212 ': Flange 212 ", 217': Fixed bolt

213: setting ring 215: punch slider

216: Piercing punch 216 ': Fixing nut

217: guide plate 220: die portion

221: reciprocating block 221 ': horizontal hole

221 ": Vertical hole 222: Diblock

223: die 223 ': punching ball

223 ": Magnifier 225: Air cylinder

225 ': Mounting block 225 ": Fixing means

226: connecting rod 227: guide rod

228: air connector 228 ': connector fixing block

230: scrap removal unit 231: hopper unit

232: fixed part 233: discharge part

In order to achieve the above object, the scrap removing device of the piercing device of the middle shell of the rotary compressor of the air conditioner according to the embodiment of the present invention comprises an outer case consisting of a middle shell, an upper shell and a lower shell, The motor assembly to which the rotor is assembled is press-fitted and the lower part is rolled with a blank to manufacture the middle shell of the air conditioner rotary compressor, in which a pump assembly driven through the shaft from the motor assembly is welded and fixed through three piercing holes. A connecting rod of a reciprocating mechanism, such as a fluid cylinder, which is bent, welded to form a shell, and is then elevated up and down to process a piercing hole from the inside of the processed shell to the outside of the machined joint of the upper shell and the lower shell; It is fixed to the connecting rod through the nut and the protruding plate, and is detachably connected. Three slide inclined cam surfaces are formed on the upper side. The cam slider of approximately circular section and a shell are inserted in the outer circumference, and the inner circumference guides the lifting movement in sliding contact with the outer circumference of the cam slider, and is fixed to the base plate through the flange and the fixing bolt, and each punch slider is An approximately cylindrical lifting guide block having three guide installation holes for installation, and a slide inclined cam surface for sliding contact and cam action of the slide inclined cam surface of the cam slider to convert the lifting movement of the cam slider into radial movement. And a radial movement is guided to the guide installation hole of the lifting guide block, reciprocating reciprocating by the reciprocating mechanism on the base plate respectively radially opposed to the three punch slider fixed with the piercing punch, and the punch slider; It consists of three dies which are fixed to the movement block via the die block. In a piercing device: a larger diameter enlarged hole is formed in the die through a punching hole of a diameter of the piercing hole and a central diameter coincides with the pierced scrap so that the pierced scrap is not jammed and discharged backwards, and the reciprocating block penetrates the enlarged hole. A horizontal hole is formed so that the scrap is not jammed and is discharged to the rear, and a vertical hole penetrating the horizontal hole is formed in the reciprocating block so that the scrap falls from the rear of the horizontal hole, and according to the reciprocating motion of the reciprocating block. The hopper portion is fixed to the base plate via a fixing portion so as to collect the width falling from the lower end of the vertical hole by covering the width, and a discharge portion is installed to discharge the scrap falling into the hopper portion to the outside. .

The installation block of the air cylinder is formed rearward from the lower side of the connecting member of the air cylinder so as not to prevent the falling of the scrap below the reciprocating block, the reciprocating block is guided through the guide rod from the top. It is preferable to be.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 shows a configuration of a three-point piercing device of a middle shell of an air conditioner rotary compressor according to the present invention as a top plan view, and FIG. 4 includes a scrap removing device according to an embodiment of the present invention. -4 cross-sectional view is shown, and FIG. 5 is an enlarged cross-sectional view of the die.

3 and 4, the three-point piercing device of the middle shell of the air conditioner rotary compressor of the present invention includes a cam slider 211 having a substantially circular section, a lifting guide block 212 having a substantially cylindrical shape, a piercing punch 216, and 3 Three punch sliders 215 and three dies 223.

The connecting rod 201 is a connecting rod 201 of a reciprocating mechanism such as a fluid cylinder disposed up and down, and is fixed to the connecting rod 201 via a fixing nut 202 and a protruding plate 203, and can be disassembled. It is connected to the cam slider 211.

The cam slider 211 is formed in three slide inclined cam surfaces 211 'at the top as a substantially circular section in Figs. 3 and 4, and is configured to reciprocate with the connecting rod 201 of the fluid cylinder up and down. .

The lifting guide block 212, the shell 70 is inserted into the outer circumference, the inner circumference thereof guides the lifting movement in sliding contact with the outer circumference of the cam slider 211, the flange 212 'and the fixed bolt It is fixed to the base plate 205 via 212 ". In addition, the guide installation hole 212a for installing each punch slider 215 is formed in three places of the elevation guide blocks 212. As shown in FIG.

The punch slider 215 is in sliding contact with the slide inclined cam surface 211 ′ of the cam slider 211 and cams, and the slide inclined cam surface 215 for converting the lifting movement of the cam slider 211 into a radial movement. ') Is formed, and the radial movement of the punch slider 215 is guided to the guide installation hole 212a of the lifting guide block 212 so that the guide movement hole 212a' of the lifting guide block 212 is guided. The piercing punches 216 are respectively fixed to the punch sliders 215 to move radially together.

On the other hand, the three dies 223 are fixed to the die block 222, respectively, and the die block 222 is a reciprocating mechanism on the base plate 205 facing radially to the punch slider 215, respectively. When the shell 70 is disposed on the outer circumference of the elevating guide block 212, the die block 222 is first reciprocated by the reciprocating mechanism. 221 is advanced to be in contact with the shell 70.

The reciprocating block 221, as shown in Figure 4, the reciprocating motion is guided through the guide rod 221a from the top, the die block 222 is scraped from the die 223 is retracted to fall downward The scrap discharge passage is formed so that the scrap removal unit 230 is installed in the base plate 205 to collect the piercing scrap over the reciprocating movement distance of the other scrap discharge passage in the reciprocating motion.

The scrap discharge passage is formed so that the pierced scrap is discharged backward without being jammed and then falls downward. That is, a punching hole 223 'having a diameter D of the piercing hole 80' is formed in the front portion of the die 223, and has a larger diameter that is penetrated by the punching hole 223 'and coincides with the central axis. An enlarged hole 223 ″ of (D ′) is formed through the die 223 to the rear of the punching hole 223 ′.

The horizontal hole 221 'is formed in the reciprocating block 221 to which the die 223 is fixed so as to be penetrated through the enlarged hole 223 "of the die 223 so that the scrap is not jammed and can be discharged backwards. The vertical hole 221 ″ penetrated into the horizontal hole 221 ′ is formed in the reciprocating block 221 so that the scrap falls from the rear of the horizontal hole 221 ′.

In addition, a hopper portion 231 is installed to cover the width according to the reciprocating motion of the reciprocating block 221 to collect scrap falling from the lower end of the vertical hole 221 ″, and the hopper part 231 ) Is fixed to the base plate 205 via the fixing portion 232, and below the discharge portion 233 is installed to discharge the scrap falling into the hopper portion 231 to the outside.

In addition, as shown in FIG. 4, the installation block 225 ′ of the air cylinder 225 is connected to the connecting member 226 of the air cylinder 225 so as not to prevent falling of the scrap below the reciprocating block 221. It is formed to the rear of the lower side, the reciprocating block 221 is guided reciprocating through the guide rod 227 at the top. The guide rod 227 may be formed on both sides or one side.

According to the three-point piercing apparatus of the middle shell of the air conditioner rotary compressor configured as described above, first, the shell 70 is loaded on the lifting guide block 212, and the reciprocating block 221 is advanced by the reciprocating mechanism to die. When the 223 and the die block 222 contact the shell 70, the lifting guide block 212 is lifted by a reciprocating mechanism such as a fluid cylinder to advance the punch slider 215 radially outward so that the die 223 The piercing hole is machined from the shell 70 by the action of the piercing punch 216 with respect to the scrap, and the scrap is collected by the scrap remover 230 along the scrap discharge passage 221 " 216 retracts with the lowering of the reciprocating mechanism and the elevating guide block 212 to exit the shell 70. Then, the reciprocating block 221 reverses and the die 223 with the die block 222. By reversing together, the shell 70 can be unloaded. The processing of the piercing hole is completed. At this time, the generated scrap is retracted by the punching pressure of the piercing punch 216 into the enlarged hole 223 "without falling through the punching hole 223 'of the die 223, and slightly The drop falls to the vertical hole 221 ″ through the enlarged hole 223 ″ and the horizontal hole 221 ′ of the reciprocating block 221. As such, the piercing scraps can be discharged to the outside by retreating backward from the punching hole 223 ′ of the die 223, and thus continue to be pierced. That is, as the scrap is continuously discharged from the punching hole 223 'of the die, the three piercing holes 80' for assembling the pump assembly 120 can be precisely processed simultaneously.

According to the configuration and operation of the scrap removal device of the piercing device of the middle shell of the rotary type air conditioner rotary compressor according to the embodiment of the present invention described above, the slide inclined cam surface (211 ', 215') and the punch slider 215 and the reciprocating motion The configuration of the block 221 has the effect of continuously discharging the scrap discharged horizontally so that the three piercing holes can be processed at the same time the pitch and relative height accurately.

Claims (2)

The outer shell is composed of the middle shell 101, the upper shell 102 and the lower shell 103, and the motor assembly 110 in which the stator 111 and the rotor 112 are assembled on the inner circumference is press-fitted and fixed to the lower part. The middle shell 101 of the air conditioner rotary compressor is manufactured in which the pump assembly 120 driven through the shaft 113 from the motor assembly 110 is welded and fixed through three piercing holes 80 '. Roll-bending with a blank, welding to form a shell, and then piercing holes 80 from the inside of the processed shell 70 to the outside of the processed shell 70 'of the upper shell 102 and the lower shell 103. ') Is fixed to the connecting rod 201 via a connecting rod 201 of a reciprocating mechanism such as a fluid cylinder disposed up and down and a fixing nut 202 and a protruding plate 203 so as to be machined up and down. And a cam slider 211 having a substantially circular cross section in which three slide inclined cam surfaces 211 'are formed on the upper portion, and a shell 70 on the outer circumference thereof. ) Is inserted, the inner circumference guides the lifting movement in sliding contact with the outer circumference of the cam slider 211, and is fixed to the base plate 205 via the flange 212 'and the fixing bolt 212 ", A substantially cylindrical lifting guide block 212 formed with three guide mounting holes 212a for installing each punch slider 215, a slide inclined cam surface 211 'of the cam slider 211, a sliding contact, and a cam. And a slide inclined cam surface 215 'for converting the lifting movement of the cam slider 211 into the radial movement, and the radial movement is guided in the guide installation hole 212a' of the lifting guide block 212. Three punch sliders 215 to which the piercing punch 216 is fixed, and a reciprocating block reciprocating by the reciprocating mechanism on the base plate 205 in a radially opposite direction to the punch slider 215, respectively. 221 is fixed through a diblock 222 In the piercing device that is configured to include three dies 223: A larger diameter (D ') that penetrates the die (223) to the punching hole (223') of the diameter (D) of the piercing hole (80 ') so that the pierced scrap is not jammed and is discharged backwards. An enlarged hole 223 "is formed, and a horizontal hole 221 'is formed in the reciprocating block 221 so as to pass through the enlarged hole 223" so that the scrap is not jammed and is discharged backward. A vertical hole 221 ″ penetrated into the horizontal hole 221 ′ is formed in the reciprocating block 221 so that the scrap falls from the rear of the horizontal hole 221 ′, and the reciprocating motion of the reciprocating block 221 is performed. The hopper portion 231 is fixed to the base plate 205 via the fixing portion 232 so as to collect the scrap falling from the lower end of the vertical hole 221 ″ by covering the width according to the movement, and the hopper portion ( 231 is characterized in that the discharge portion 233 is installed to discharge the scrap falling into the outside Scrap removal device of the piercing device of the middle shell of the air conditioner rotary compressor. According to claim 1, wherein the installation block 225 ′ of the air cylinder 225 is below the connecting member 226 of the air cylinder 225 so as not to prevent the falling of the scrap below the reciprocating motion block 221. It is formed more rearward, the reciprocating block 221 is a scrap removal device of the piercing device of the middle shell of the air conditioner rotary compressor characterized in that the reciprocating motion is guided through the guide rod 227 at the top.